metaforce/Shaders/CModelShaders.frag.glsl

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#if !defined(URDE_ALPHA_TEST) && defined(GL_ARB_shader_image_load_store)
layout(early_fragment_tests) in;
#endif
SBINDING(0) in VertToFrag vtf;
TBINDING0 uniform sampler2D lightmap;
TBINDING1 uniform sampler2D diffuse;
TBINDING2 uniform sampler2D emissive;
TBINDING3 uniform sampler2D specular;
TBINDING4 uniform sampler2D extendedSpecular;
TBINDING5 uniform sampler2D reflection;
TBINDING6 uniform sampler2D alpha;
TBINDING7 uniform sampler2D reflectionIndTex;
TBINDING8 uniform sampler2D extTex0;
TBINDING9 uniform sampler2D extTex1;
TBINDING10 uniform sampler2D extTex2;
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#if defined(URDE_LIGHTING_CUBE_REFLECTION) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW)
TBINDING11 uniform samplerCube reflectionTex;
#else
TBINDING11 uniform sampler2D reflectionTex;
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#endif
const vec3 kRGBToYPrime = vec3(0.257, 0.504, 0.098);
/*
#if defined(ALPHA_%s)
vec3 SampleTexture_%s() { return texture(%s, vtf.%sUv).aaa; }
float SampleTextureAlpha_%s() { return texture(%s, vtf.%sUv).a; }
#else
vec3 SampleTexture_%s() { return texture(%s, vtf.%sUv).rgb; }
float SampleTextureAlpha_%s() { return dot(texture(%s, vtf.%sUv).rgb, kRGBToYPrime); }
#endif
*/
#if defined(ALPHA_lightmap)
vec3 SampleTexture_lightmap() { return texture(lightmap, vtf.lightmapUv).aaa; }
float SampleTextureAlpha_lightmap() { return texture(lightmap, vtf.lightmapUv).a; }
#else
vec3 SampleTexture_lightmap() { return texture(lightmap, vtf.lightmapUv).rgb; }
float SampleTextureAlpha_lightmap() { return dot(texture(lightmap, vtf.lightmapUv).rgb, kRGBToYPrime); }
#endif
#if defined(ALPHA_diffuse)
vec3 SampleTexture_diffuse() { return texture(diffuse, vtf.diffuseUv).aaa; }
float SampleTextureAlpha_diffuse() { return texture(diffuse, vtf.diffuseUv).a; }
#else
vec3 SampleTexture_diffuse() { return texture(diffuse, vtf.diffuseUv).rgb; }
float SampleTextureAlpha_diffuse() { return dot(texture(diffuse, vtf.diffuseUv).rgb, kRGBToYPrime); }
#endif
#if defined(ALPHA_emissive)
vec3 SampleTexture_emissive() { return texture(emissive, vtf.emissiveUv).aaa; }
float SampleTextureAlpha_emissive() { return texture(emissive, vtf.emissiveUv).a; }
#else
vec3 SampleTexture_emissive() { return texture(emissive, vtf.emissiveUv).rgb; }
float SampleTextureAlpha_emissive() { return dot(texture(emissive, vtf.emissiveUv).rgb, kRGBToYPrime); }
#endif
#if defined(ALPHA_specular)
vec3 SampleTexture_specular() { return texture(specular, vtf.specularUv).aaa; }
float SampleTextureAlpha_specular() { return texture(specular, vtf.specularUv).a; }
#else
vec3 SampleTexture_specular() { return texture(specular, vtf.specularUv).rgb; }
float SampleTextureAlpha_specular() { return dot(texture(specular, vtf.specularUv).rgb, kRGBToYPrime); }
#endif
#if defined(ALPHA_extendedSpecular)
vec3 SampleTexture_extendedSpecular() { return texture(extendedSpecular, vtf.extendedSpecularUv).aaa; }
float SampleTextureAlpha_extendedSpecular() { return texture(extendedSpecular, vtf.extendedSpecularUv).a; }
#else
vec3 SampleTexture_extendedSpecular() { return texture(extendedSpecular, vtf.extendedSpecularUv).rgb; }
float SampleTextureAlpha_extendedSpecular() { return dot(texture(extendedSpecular, vtf.extendedSpecularUv).rgb, kRGBToYPrime); }
#endif
#if defined(ALPHA_reflection)
vec3 SampleTexture_reflection() { return texture(reflection, vtf.reflectionUv).aaa; }
float SampleTextureAlpha_reflection() { return texture(reflection, vtf.reflectionUv).a; }
#else
vec3 SampleTexture_reflection() { return texture(reflection, vtf.reflectionUv).rgb; }
float SampleTextureAlpha_reflection() { return dot(texture(reflection, vtf.reflectionUv).rgb, kRGBToYPrime); }
#endif
#if defined(ALPHA_alpha)
vec3 SampleTexture_alpha() { return texture(alpha, vtf.alphaUv).aaa; }
float SampleTextureAlpha_alpha() { return texture(alpha, vtf.alphaUv).a; }
#else
vec3 SampleTexture_alpha() { return texture(alpha, vtf.alphaUv).rgb; }
float SampleTextureAlpha_alpha() { return dot(texture(alpha, vtf.alphaUv).rgb, kRGBToYPrime); }
#endif
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#if defined(URDE_LIGHTING) || defined(URDE_LIGHTING_SHADOW) || defined(URDE_LIGHTING_CUBE_REFLECTION) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW) || defined(URDE_DISINTEGRATE)
struct Fog {
vec4 color;
float A;
float B;
float C;
int mode;
};
#endif
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#if defined(URDE_LIGHTING) || defined(URDE_LIGHTING_SHADOW) || defined(URDE_LIGHTING_CUBE_REFLECTION) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW)
struct Light {
vec4 pos;
vec4 dir;
vec4 color;
vec4 linAtt;
vec4 angAtt;
};
UBINDING2 uniform LightingUniform {
Light lights[URDE_MAX_LIGHTS];
vec4 ambient;
vec4 colorReg0;
vec4 colorReg1;
vec4 colorReg2;
vec4 mulColor;
vec4 addColor;
Fog fog;
};
#else
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const vec4 colorReg0 = vec4(1.0);
const vec4 colorReg1 = vec4(1.0);
const vec4 colorReg2 = vec4(1.0);
#endif
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#if defined(URDE_LIGHTING) || defined(URDE_LIGHTING_CUBE_REFLECTION)
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vec3 LightingFunc() {
vec4 ret = ambient;
for (int i = 0; i < URDE_MAX_LIGHTS; ++i) {
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vec3 delta = vtf.mvPos.xyz - lights[i].pos.xyz;
float dist = length(delta);
vec3 deltaNorm = delta / dist;
float angDot = max(dot(deltaNorm, lights[i].dir.xyz), 0.0);
float att = 1.0 / (lights[i].linAtt[2] * dist * dist +
lights[i].linAtt[1] * dist +
lights[i].linAtt[0]);
float angAtt = lights[i].angAtt[2] * angDot * angDot +
lights[i].angAtt[1] * angDot +
lights[i].angAtt[0];
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ret += lights[i].color * angAtt * att * max(dot(-deltaNorm, vtf.mvNorm.xyz), 0.0);
}
return clamp(ret.rgb, vec3(0.0), vec3(1.0));
}
#endif
#if defined(URDE_THERMAL_HOT)
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vec3 LightingFunc() {
return vec3(1.0);
}
UBINDING2 uniform ThermalUniform {
vec4 tmulColor;
vec4 taddColor;
};
#endif
#if defined(URDE_THERMAL_COLD)
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vec3 LightingFunc() {
return vec3(1.0);
}
#endif
#if defined(URDE_SOLID)
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vec3 LightingFunc() {
return vec3(1.0);
}
UBINDING2 uniform SolidUniform {
vec4 solidColor;
};
#endif
#if defined(URDE_MB_SHADOW)
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vec3 LightingFunc() {
return vec3(1.0);
}
UBINDING2 uniform MBShadowUniform {
vec4 shadowUp;
float shadowId;
};
#endif
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#if defined(URDE_LIGHTING_SHADOW) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW)
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vec3 LightingFunc() {
vec2 shadowUV = vtf.extUvs[0];
shadowUV.y = 1.0 - shadowUV.y;
vec4 ret = ambient;
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vec3 delta = vtf.mvPos.xyz - lights[0].pos.xyz;
float dist = length(delta);
vec3 deltaNorm = delta / dist;
float angDot = max(dot(deltaNorm, lights[0].dir.xyz), 0.0);
float att = 1.0 / (lights[0].linAtt[2] * dist * dist +
lights[0].linAtt[1] * dist +
lights[0].linAtt[0]);
float angAtt = lights[0].angAtt[2] * angDot * angDot +
lights[0].angAtt[1] * angDot +
lights[0].angAtt[0];
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ret += lights[0].color * angAtt * att * max(dot(-deltaNorm, vtf.mvNorm.xyz), 0.0) *
texture(extTex0, shadowUV).r;
for (int i = 1; i < URDE_MAX_LIGHTS; ++i) {
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vec3 delta = vtf.mvPos.xyz - lights[i].pos.xyz;
float dist = length(delta);
vec3 deltaNorm = delta / dist;
float angDot = max(dot(deltaNorm, lights[i].dir.xyz), 0.0);
float att = 1.0 / (lights[i].linAtt[2] * dist * dist +
lights[i].linAtt[1] * dist +
lights[i].linAtt[0]);
float angAtt = lights[i].angAtt[2] * angDot * angDot +
lights[i].angAtt[1] * angDot +
lights[i].angAtt[0];
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ret += lights[i].color * angAtt * att * max(dot(-deltaNorm, vtf.mvNorm.xyz), 0.0);
}
return clamp(ret.rgb, vec3(0.0), vec3(1.0));
}
#endif
#if defined(URDE_DISINTEGRATE)
UBINDING2 uniform DisintegrateUniform {
vec4 daddColor;
Fog fog;
};
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vec3 LightingFunc() {
return vec3(1.0);
}
#endif
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#if defined(URDE_LIGHTING) || defined(URDE_LIGHTING_SHADOW) || defined(URDE_LIGHTING_CUBE_REFLECTION) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW) || defined(URDE_DISINTEGRATE)
vec4 FogFunc(vec4 colorIn) {
float fogZ;
float fogF = clamp((fog.A / (fog.B - gl_FragCoord.z)) - fog.C, 0.0, 1.0);
switch (fog.mode) {
case 2:
fogZ = fogF;
break;
case 4:
fogZ = 1.0 - exp2(-8.0 * fogF);
break;
case 5:
fogZ = 1.0 - exp2(-8.0 * fogF * fogF);
break;
case 6:
fogZ = exp2(-8.0 * (1.0 - fogF));
break;
case 7:
fogF = 1.0 - fogF;
fogZ = exp2(-8.0 * fogF * fogF);
break;
default:
fogZ = 0.0;
break;
}
#ifdef BLEND_DST_ONE
return vec4(mix(colorIn, vec4(0.0), clamp(fogZ, 0.0, 1.0)).rgb, colorIn.a);
#else
return vec4(mix(colorIn, fog.color, clamp(fogZ, 0.0, 1.0)).rgb, colorIn.a);
#endif
}
#endif
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#if defined(URDE_LIGHTING) || defined(URDE_LIGHTING_SHADOW) || defined(URDE_LIGHTING_CUBE_REFLECTION) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW)
vec4 PostFunc(vec4 colorIn) {
return FogFunc(colorIn) * mulColor + addColor;
}
#endif
#if defined(URDE_THERMAL_HOT)
vec4 PostFunc(vec4 colorIn) {
return texture(extTex0, vtf.extUvs[0]).rrrr * tmulColor + taddColor;
}
#endif
#if defined(URDE_THERMAL_COLD)
vec4 PostFunc(vec4 colorIn) {
return colorIn * vec4(0.75);
}
#endif
#if defined(URDE_SOLID)
vec4 PostFunc(vec4 colorIn) {
return solidColor;
}
#endif
#if defined(URDE_MB_SHADOW)
vec4 PostFunc(vec4 colorIn) {
float idTexel = texture(extTex0, vtf.extUvs[0]).a;
float sphereTexel = texture(extTex1, vtf.extUvs[1]).r;
float fadeTexel = texture(extTex2, vtf.extUvs[2]).a;
float val = ((abs(idTexel - shadowId) < 0.001) ?
(dot(vtf.mvNorm.xyz, shadowUp.xyz) * shadowUp.w) : 0.0) *
sphereTexel * fadeTexel;
return vec4(0.0, 0.0, 0.0, val);
}
#endif
#if defined(URDE_DISINTEGRATE)
vec4 PostFunc(vec4 colorIn) {
vec4 texel0 = texture(extTex0, vtf.extUvs[0]);
vec4 texel1 = texture(extTex0, vtf.extUvs[1]);
colorIn = mix(vec4(0.0), texel1, texel0);
colorIn.rgb += daddColor.rgb;
return FogFunc(colorIn);
}
#endif
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#if defined(URDE_LIGHTING_CUBE_REFLECTION) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW)
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vec3 ReflectionFunc(float roughness) { return texture(reflectionTex, reflect(vtf.mvPos.xyz, vtf.mvNorm.xyz), roughness).rgb; }
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#elif defined(URDE_REFLECTION_SIMPLE)
vec3 ReflectionFunc() { return texture(reflectionTex, vtf.dynReflectionUvs[1]).rgb * vtf.dynReflectionAlpha; }
#elif defined(URDE_REFLECTION_INDIRECT)
vec3 ReflectionFunc() { return texture(reflectionTex, (texture(reflectionIndTex, vtf.dynReflectionUvs[0]).ab -
vec2(0.5, 0.5)) * vec2(0.5, 0.5) + vtf.dynReflectionUvs[1]).rgb * vtf.dynReflectionAlpha; }
#else
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vec3 ReflectionFunc() { return vec3(0.0); }
#endif
layout(location=0) out vec4 colorOut;
void main() {
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vec3 lighting = LightingFunc();
vec4 tmp;
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#if defined(URDE_LIGHTING_CUBE_REFLECTION) || defined(URDE_LIGHTING_CUBE_REFLECTION_SHADOW)
tmp.rgb = (SampleTexture_lightmap() * colorReg1.rgb + lighting) * SampleTexture_diffuse() +
SampleTexture_emissive() + (SampleTexture_specular() + SampleTexture_extendedSpecular() * lighting) *
(SampleTexture_reflection() * ReflectionFunc(clamp(0.5 - SampleTextureAlpha_specular(), 0.0, 1.0)) * 2.0);
tmp.a = SampleTextureAlpha_alpha();
#elif defined(URDE_DIFFUSE_ONLY)
tmp.rgb = SampleTexture_diffuse();
tmp.a = SampleTextureAlpha_alpha();
#elif defined(RETRO_SHADER)
tmp.rgb = (SampleTexture_lightmap() * colorReg1.rgb + lighting) * SampleTexture_diffuse() +
SampleTexture_emissive() + (SampleTexture_specular() + SampleTexture_extendedSpecular() * lighting) *
SampleTexture_reflection() + ReflectionFunc();
tmp.a = SampleTextureAlpha_alpha();
#elif defined(RETRO_DYNAMIC_SHADER)
tmp.rgb = (SampleTexture_lightmap() * colorReg1.rgb + lighting) * SampleTexture_diffuse() * colorReg1.rgb +
SampleTexture_emissive() * colorReg1.rgb + (SampleTexture_specular() + SampleTexture_extendedSpecular() * lighting) *
SampleTexture_reflection() + ReflectionFunc();
tmp.a = SampleTextureAlpha_alpha();
#elif defined(RETRO_DYNAMIC_ALPHA_SHADER)
tmp.rgb = (SampleTexture_lightmap() * colorReg1.rgb + lighting) * SampleTexture_diffuse() * colorReg1.rgb +
SampleTexture_emissive() * colorReg1.rgb + (SampleTexture_specular() + SampleTexture_extendedSpecular() * lighting) *
SampleTexture_reflection() + ReflectionFunc();
tmp.a = SampleTextureAlpha_alpha() * colorReg1.a;
#elif defined(RETRO_DYNAMIC_CHARACTER_SHADER)
tmp.rgb = (SampleTexture_lightmap() + lighting) * SampleTexture_diffuse() +
SampleTexture_emissive() * colorReg1.rgb + (SampleTexture_specular() + SampleTexture_extendedSpecular() * lighting) *
SampleTexture_reflection() + ReflectionFunc();
tmp.a = SampleTextureAlpha_alpha();
#endif
colorOut = PostFunc(tmp);
#if defined(URDE_ALPHA_TEST)
if (colorOut.a < 0.25)
discard;
#endif
}